首页|期刊导航|长江科学院院报|深埋隧洞施工期渗控措施对衬砌外水压力的影响

深埋隧洞施工期渗控措施对衬砌外水压力的影响OA

Influence of Seepage Control Measures During Deep-Burial Tunnel Construction on External Water Pressure on Tunnel Lining

中文摘要英文摘要

香炉山隧洞是滇中引水工程的难点和控制性工程,位于大理州鹤庆县松桂镇境内,高外水压力是威胁其安全的一大因素.以香炉山隧洞典型洞段为研究对象,基于现场埋设监测仪器和数值分析发现:由于隧洞的排水作用,洞壁渗压较低可能仅有几米水头;隧洞外水压力和渗流量同时受地质条件和工程渗控措施的影响,岩体渗透性、隧洞与导水构造的距离、隔水衬砌和排水孔的设置都会影响隧洞外水压力和渗流量.在一定的地质结构和渗控措施条件下隧洞开挖排水可能仅仅引起隧洞局部的地下水疏干,而不影响地下水潜水位.研究结果可以为深埋高外水压力隧洞安全施工和运行提供参考.

[Objective]The Xianglushan Tunnel is a challenging and key control project of the Central Yunnan Wa-ter Diversion Project.Branch Tunnel No.7 of the Xianglushan Tunnel,located in Songgui Town,Heqing County,Dali Prefecture,Yunnan Province,generally lies at a depth of 600-1 300 m,with a maximum burial depth of 1 415 m.High external water pressure is regarded as a major threat to its safety.Existing studies on tunnel external water pressure have mostly assumed homogeneous strata,paying relatively little attention to geological structures.The influence of geological structures—particularly the presence of aquitard layers above the tunnel—remains to be investigated in depth.[Methods]A typical deep-burial section of the Central Yunnan Water Diversion Project was investigated through field observations and numerical simulation to study the external water pressure acting on the tunnel lining.The effects of geological structures and seepage control measures on the external water pressure were analyzed to provide a reference for the design and construction of deep-burial tunnels.[Results]During in-situ drilling,groundwater in the tunnel was identified as fissure groundwater.Obvious water inflow occurred if a bore-hole intersected water-conducting fissures;otherwise,the boreholes remained essentially dry.Monitoring data from five piezometers installed in the tunnel over nearly one year indicated that the external water pressure around the unlined tunnel during construction was relatively low,only several meters of water head.Numerical simulation of the seepage field revealed that higher rock permeability and shorter distance between the tunnel and water-conducting structures increased both external water pressure and seepage discharge.Impermeable linings,while blocking wa-ter,caused an increase in external water pressure.Drainage holes,while reducing external water pressure,resulted in an increase in tunnel seepage discharge.Under specific geological structures and seepage control measures,tun-nel excavation and drainage may only cause local groundwater drawdown around the tunnel,without affecting the re-gional phreatic surface.[Conclusion]In the model of this study,an aquitard layer with relatively low permeability exists above the tunnel,which limits the influence range of tunnel drainage.As a result,drainage only forms a lo-calized desaturation zone between the tunnel and the aquitard,exerting minimal effect on groundwater above the aquitard.This localized desaturation explains the phenomenon observed in tunnel projects in water-rich areas,where the regional phreatic surface is high while the external water pressure acting on the tunnel remains relatively low.Near the tunnel face,equipotential lines are densely spaced,and the hydraulic gradient is relatively large,whereas a smaller gradient prevails behind the face.This indicates that greater seepage pressure is imposed near the tunnel face,explaining why seepage-induced failures frequently occur in this area.

李鸣威;李玉峰;崔皓东;李少龙;孙云

长江科学院水利部岩土力学与工程重点实验室,武汉 430010云南省滇中引水工程建设管理局,昆明 650051长江科学院水利部岩土力学与工程重点实验室,武汉 430010长江科学院水利部岩土力学与工程重点实验室,武汉 430010云南省滇中引水工程有限公司,昆明 650000

建筑与水利

深埋隧洞隧洞渗控措施隔水衬砌外水压力数值模拟滇中引水工程

deep-burial tunneltunnel seepage control measuresaquitard liningexternal water pressurenumeri-cal simulationCentral Yunnan Water Diversion Project

《长江科学院院报》 2026 (1)

202-209,8

云南省重大科技专项计划项目(202102AF080001)中国中铁股份有限公司科技研究开发计划项目(2022-重大-15)

10.11988/ckyyb.20241186

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